RESUMEN

Polycyclic aromatic hydrocarbons (PAHs) are one of the most common groups of pollutants that have toxic and carcinogenic effects. Black alder trees (Alnus glutinosa L.) have been used to remediate contaminated soils from industrial pollutants and heavy metals; however, their usefulness for PAH remediation is unclear. In this study, we examined the response of seedlings from four alder half-sib families (genetic groups sharing the same mother but different fathers) to exposure to four PAHs-phenanthrene, pyrene, naphthalene, and fluoranthene-each at three concentrations. Plant growth parameters were evaluated, and concentration of secondary metabolites and antioxidant activity were measured. The results of the morphological parameters showed that in general, higher PAH concentrations had a more negative effect on tree vitality than lower concentrations (shoot growth reduction by up to 76%). Each half-sib family also exhibited distinct responses in total phenol content (TPC) when exposed to varying concentrations of pollutants, with reductions in TPC ranging from 4 to 52% across different genetic lineages. Enzyme activity also varied between families, pollutants, and their concentrations; for example, while phenanthrene generally increased glutathione S-transferase (GST) activity in the 13-99-1K and 38-61-7K half-sib families, it unexpectedly decreased GST levels by 23% and 29% in the seedlings of the 26-133-6K and 41-65-7K families, respectively, emphasizing the nuanced and divergent enzymatic responses observed in this study. Further secondary metabolite and antioxidant activity analysis revealed distinct variations in the way PAHs impact the defense mechanism of alder seedlings from different genetic groups-prioritizing either enzymatic or non-enzymatic systems. To sum up, analyzing the varying effects of PAHs on distinct half-sib families of alders can prove advantageous in identifying the most efficient black alder genetic families for phytoremediation purposes.